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Communication Dans Un Congrès Année : 2012

Micro-mechanical modeling of brittle fracture of French RPV steel - A comprehensive study of stress triaxiality effect

Karim Inal
Olivier Diard
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Résumé

The present study describes a multiscale representation of mechanisms involved in brittle fracture of a french Reactor Pressure Vessel (RPV) steel (16MND5 equ. ASTM A508 Cl.3) at low temperatures. Attention will be focused on the representation of stress heterogeneities inside the ferritic matrix during plastic straining, which is considered as critical for further micromechanical approach of brittle fracture. This representation is tuned on experimental results. Modeling involves micromechanical a description of plastic glide, a mean field (MF) model and a realistic three-dimensional aggregates Finite Element (FE) simulation, all put together inside a multiscale approach. Calibration is done on macroscopic stress-strain curves at different low temperatures, and modeling reproduces experimental stress heterogeneities. This modeling allows to apply a local micromechanical fracture criterion of crystallographic cleavage for triaxial loadings on the Representative Volume Element (RVE). Deterministic computations of time to fracture for different carbide sizes random selection provide a probability of fracture for an Elementary Volume (EV) consistant with the local approach. Results are in good agreement with hypothesis made by local approach to fracture. Hence, the main difference is that no phenomenological dependence on loading or microstructure is supposed for probability of fracture on the EV : this dependence is naturally introduced by the micromechanical description. Further information on ASME publications can be found at : http://asmedl.org As per ASME's policy there must not be any outside charge or fee for distribution. This is for reference only. Anyone who wishes to use any part of this article must contact ASME for permission at permissions@asme.org.
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Dates et versions

hal-00671909 , version 1 (19-02-2012)

Identifiants

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Jean-Philippe Mathieu, Karim Inal, Sophie Berveiller, Olivier Diard. Micro-mechanical modeling of brittle fracture of French RPV steel - A comprehensive study of stress triaxiality effect. ASME 2008 Pressure Vessels and Piping Conference, Jul 2008, Chicago, United States. pp.Volume 6: Materials and Fabrication, Parts A and B, ⟨10.1115/PVP2008-61334⟩. ⟨hal-00671909⟩
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